SGMSH-40A2A3C Original Yaskawa Super high power motor SGMSH-40A2A3C
Introducing the Yaskawa SGMSH-40A2A3C Super High Power Servo Motor
Yaskawa’s SGMSH-40A2A3C represents cutting-edge technology in high-performance servo motors, designed for demanding industrial applications. Engineered with precision and reliability in mind, this motor delivers an exceptional balance of power and efficiency. With its robust features and intelligent capabilities, the SGMSH-40A2A3C is well-positioned to enhance production speed and machine responsiveness, making it an ideal choice for engineers and production managers alike.
Product Specifications
Parameter | Details |
---|---|
Brand | Yaskawa |
Model | SGMSH-40A2A3C |
Rated Speed | 3000 r/min |
Power | 4.0 kW |
Power Supply Voltage | Three Phase AC 200V |
Serial Encoder | 17 Bit Absolute Value |
Design Sequence | A |
Shaft End | Taper 1/10, with Parallel Key |
Optional Parts | DC 24V Brake |
Performance Excellence
The SGMSH-40A2A3C is characterized by its ultra-high power response, providing minimal inertia while exhibiting high torque. This motor features online automatic adjustment capabilities that measure mechanical properties and seamlessly set desired servo gain. It ensures that initial contact is swiftly optimized, completing adjustments in no time. Moreover, it boasts automatic identification for both the motor and servo drive, making parameter settings effortless and efficient.
Enhanced Reliability Features
This servo motor is equipped with a sophisticated protection system to mitigate the effects of temperature fluctuations. A temperature sensor integrated within the unit allows for real-time monitoring, enabling swift detection of anomalies to preempt failures. The machine controller enhances safety by continuously tracking the temperature state of the system. With these advanced features, you can operate with confidence, knowing that Yaskawa’s SGMSH-40A2A3C prioritizes both performance and longevity.
Improved Mechanical Properties
The SGMSH-40A2A3C not only meets but exceeds mechanical performance expectations. With a computing time that is halved compared to previous models, this motor employs advanced control algorithms to achieve significant reductions in positioning time. It delivers optimal control measures to refine machine performance, all while simplifying maintenance processes through easy-to-use online functions.